US2449673A - Extraction and isolation of digitoxin - Google Patents

Description

Patented Sept. 21, 1948 Harry Rosen, Drexel Hill, Pm, Incorporated, Philadelphia,

' of Delaware assignor to Wyeth Pa., a corporation No Drawing. Application August 20, 1946,

Serial No. 691,873

Claims.

This invention relates to the preparation of a cardioactive glucoside and particularly relates to the extraction and isolation of the chief active glucoside of digitalis in a substantially pure and crystalline state.

Digitalis appeared in the London Pharmacopeia as far back as 1650. The drug became increasingly popular from the time Dr. withering in 1785 demonstrated successfully and repeatedly its efficacy as a heart tonic. However, almost from the date of its introduction into medicine, physicians have complained periodically of the fact that even though control assays on freshly prepared digitalis galenicals indicated a given activity, still, after standing, the preparations couldnot be relied upon to produce a cardiac response in patient corresponding to the indicated given activity. As a result digitalis has been the subject of exhaustive investigation, and it is now known that various digitalis galenicals lose a considerable portion of their cardiac activity. To overcome this instability difllculty, a number of the glucosides of digitalis have been isolated and placed at the disposition of the physician. However, the preparation of glucosides, particularly digitoxin (C41He4013), in pure form and in good yield is a difllcult matter since digitalis leaves contain only about .2 to .4% of very slightly water soluble digitoxin mixed with other glucosides, tannin, and ballast material.

The digitoxin (C4IH84013) produced by my process is uniform in its pharmacological action, uniform in its chemical constitution, uniform crystallographically, uniform in physico-chemical tests and is uniform in its oral availability in man as shown by electro-cardiograph. As a result of its remarkable uniformity, my final product is especially valuable in that side reactions are reduced to a minimum.

One object of the present invention is to provide physicians with substantially pure, crystalline digitoxin, the chief cardio-active glucoside of digitalis.

Another object of the invention is to extract digitoxin more completely from crude sources, such as the leaves of Digitalis purpurea.

Another object of the invention is to isolate in a substantially pure, crystalline form, the digitoxin contained in extracts of digitalis.

Other objects will become apparent hereafter in the specification.

I have found that a menstruum, comprising a lower alcohol or mixture of lower alcohols and water, extracts the water-insoluble digitoxin substantially completely from digitalis leaves. By

used when the denaturant is present in minor amount and is such that it would not react with the desired digitoxin: and more preferably still, because of relative cost, a denatured ethyl alcohol with methyl alcohol as the denaturant, made up in an ethyl to methyl alcohol ratio by volume of about 10:1, can be used. The alcohol is preferably mixed with water on the basis of about 60% by volume of alcohol and about 40% 3 water. r

I have further found that the tannins and inert extractive materials are removed without precipitation of digitoxin by treatment of the extract with compounds of such bivalent metals as lead, iron, copper, tin and chromium in the form of their acetates, chlorides or carbonates or their basic salts. These compounds may be used either in solid form as aqueous suspensions or in solution, of a concentration exceeding 30% by weight. Among the compounds tested, I have found ferrous and lead acetate to be particularly suitable with the latter more particularly preferred.

I have also ascertained that any contaminating glucoside, such as gitalin, that may have carried through in traces from the extraction and treatment with the acetate, may be removed by I taking up the concentrated extract of digitoxin in a water-immiscible organic solvent and washing the solution with water or a very dilute alkaline solution, preferably the latter. When using dilute alkaline solutions, alkali metal hydroxides or carbonates, preferably sodium carbonate or dilute ammonium hydroxide is used.

For further purification, the digltoxin is precipitated at least once from a water-immiscible organic solvent with petroleum ether and recrystallized at least once from an aqueous alcoholic medium.

To promote a better understanding of my invention, typical methods of practicing the process of my invention are set, forth in the following examples, which are not to be considered limitative but are disclosed for illustrative purposes only.

, phous solid together'with some needle and rosette ether.

mean

. Ezample I One thousand grams of ground digitalis leaves were collected. Four hundred grams of solid lead acetate were added to the percolate and the mix ture was stirred until all the lead acetate had dissolved. After standing for at least one hour, the copious light green precipitate was centrifuged OE and washed successively with 1000 cc. and 500 cc. portions of 60% alcohol. The washings were combined with the filtrate from the centrifuge and most of the excess lead acetate removed by treatment with a saturated solution of sodium carbonate monohydrate. The resulting lead carbonate was filtered ofl, washed with two 200 cc. portions of 60% ethyl alcohol, and the washings combined with the filtrate. Hydrogen sulfide was then passed through the combined liquids until no more lead sulfide precipitated. The filtrate and washings resulting from filtering of! the lead sulfide were concentrated in vacuo at or below 40 C. to a volume of 2000 cc. and saturated with a salt, such as sodium chloride, to facilitate subsequent extraction with a water-immiscible organic solvent. The mixture was extracted five times with 600 cc. of a solvent consisting of two volumes of chloroform and three volumes of amyl The chloroform-amyl ether solution is extracted with about four 400 cc. portions of a 10% solution of sodium carbonate monohydrate to remove any gitalin that may have carried through in the process and vegetative extractive material. After drying over anhydrous sodium sulfate and filtering, the chloroform-amyl ether solution was concentrated in vacuo at 75-85 C. to a volume of about 25 cc. After cooling to room temperature, the concentrate was mixed with about four volumes of petroleum ether and allowed to stand for about one hour at room temperature. The dark colored, amorphous precipitate was filtered and washed with petroleum ether to ensure that all fat had been-removed. The precipitate was dissolved in 100 cc. of dilute alcohol (1:1) and the slight precipitate remaining after thorough agitation was filtered oil. The filtrate was made slightly alkaline with 10% ammonia Water and 10 grams of solidleadacetate were dissolved therein with agitation. The light brown precipitate which formed, was centrifuged off and washed with'two 50 cc. portions of dilute alcohol. Excess lead acetate was. removed by passage of hydrogen sulfide through the solution until no more lead sulfide precipitated. The 111- trate and washings resulting from removal or the;

lead sulfide was concentrated below 40C.. After making slightly alkaline with'ammonia water, the concentrate was extractedwith three 50 cc. portions of chloroform. The chloroformextract of digitoxin was dried over anhydrous sodium- After filtering and washing the filtersulfate. with dry chloroform, the chloroform extract was w"-4 crystals. The digitoxin was filtered off, and dried in a vacuum desiccator over calcium chloride and then was dissolved in 10 cc. of dry chloroform after which 15 cc. of dry amyl ether was added, followed by 100 cc. of petroleum ether. After standing one hour, the precipitate was filtered "off, washed with petroleum ether, and dried in a vacuum desiccator until alltraces of amyl ether were removed. One cubic centimeter of alcohol for each 25 milligrams of material was added to the driedprecipitate and the mixture was heated on a water-bath at 60 C. until the precipitate had completely dissolved, after which hot distilled water at 60 C. was added to produce an alcohol concentration of 40%. Upon standing overnight at room temperature the digitoxin came down as almost completely white crystals. Upon recrystallizing a second time from 40% alcohol, completely white crystals of digitoxin were obtained. On the basis of the digitalis cat assay, the digitoxin was completely-pure and is a prompt and powerful heart tonic in doses of .25 mg. to 1 mg. The crystalline digitoxin is also substantially stable and may be relied upon by the physician to furnish a uniform degree of activity of the same kind insofar as the digitoxin is concerned.

Example II added to precipitate tannins, ballast and vegetative extractive material. The precipitate was discarded and the clear solution was treated with H23 to remove the lead salts. The lead sulfide was removed and the solution-was concentrated to remove alcohol. The mixture was extracted with five 6-liter portions of diethyl ether. The ether solution was extracted with a 1% solution of sodiumcarbonate to remove gitalin and all traces of the carbonate solution was removed by treatment with sodium sulfate and filtering. The ether solution was then distilled to remove substantially all ether leaving a substantially solid residue. The residue was dissolved in a small amount of chloroform, 5 volumes of petroleum ether was added and the mixture was allowed to stand overnight. The precipitate formed was filtered and dried. This precipitate was dissolved in dilute S. D. A. #30 (a 50% aqueous solution). made slightly alkaline with 10% ammonia and lead acetate was'again added. The precipitate was removed and H28 added to the clear solution. The

lead sulfide was precipitated and remo'vedand sodium sulfate.

quantity of ether, filtered and dried. The solids were dissolved in hot, 95% ethyl alcohol, the solution was diluted with hot water to an alcoholic heated on a water bath to remove the chloroform 1 and the residue was dissolved in 20 cc. of hot alconcentration of 40% and was permitted to stand overnight. The final, desired product precipitated out as crystals of digitoxin which were filtered, washed and dried.

Obviously, various modifications of the process a may be made without departurefrom the spirit of the invention. Thus, a mixture of alcohols such as mixtures of .ethyl alcohol, with methyl and/or isopropyl alcohol may be used satisfactorily. Or any of the lower alcohols in admixture with water; th latter present in minor amount. has given satisfactory results. Moreover. it is not necessary that a 60:40 ratio be used although this has been found to give exceptionally good results. One may use from 50-95% alcohol as indicated hereinabove. Furthermore, other salts capable in suitable concentrations of precipitating tannins and inert plant extractive materials without precipitating digitoxin may be used as already disclosed. Likewise in the step or washing with water, preferably containing some sodium car-'- bonate, thechlorotorm-amyl ether solvent may be replaced with other water-immiscible organic solvents, such as chloroform-amyl alcohol, diethyl ether, ehloroform-diisopropyl ether, hot benzene and the like that dissolve the digitoxin while dissolving slightly, if any, vegetative extractive material.

This application is a continuation-in-part of my application Serial No. 524,805 filed March 2, 1944, now abandoned.

I claim:

1. In a process for the extraction and isolation of substantially pure crystalline digitoxin irom crude sources, the steps comprising extracting digitalis leaves with a mixture comprising a major amount of a lower alcohol and a minor amount of water, in which mixture digitoxin is soluble, treating the resulting liquid extract containing dissolved digitoxin with a tanninand extractiveprecipitant in a concentration suillcient to precipitate tannins, ballast and vegetative extractive materials but insufiicient to precipitate digitoxin, removing the precipitated materials and excess precipitant, and recovering substantially pure crystalline digitoxin from the treated liquid.

2. In a process for the extraction and isolation of substantially pure crystalline digitoxin from Digitalis purpurea, the steps comprising extracting the leaves of Digitalis pan-puree with a mixture comprising a major amount of a lower alcohol and a minor amount of water, in which mix ture the digitoxin is soluble, treating the resulting liquid extract containing dissolved digitoxin to separate the digitoxin from tannins, ballast of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting d gitalis leaves with a mixture comprising a major amount of ethyl alcohol and a minor amount of water, treating the resultin aqueous alcoholic extract containing dissolved digitoxin with an acetate selected from the group consisting of lead acetate and ferrous acetate, in a concentration sufficient to precipitate tannins, ballast and vegetative extractive materials but insufiicient to-precipitate digitoxin, removing the precipitated materials and excess acetate, and recovering substantially pure crystalline digitoxin from the treated aqueous alcoholic liquid.

f1. In a process for the extraction and isolation of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising a major amount or ethyl alcohol and a minoramount of water, treating the resulting aqueous alcoholic extract containing dissolved digitoxin with lead acetate in a concentration sulllcient to precipitate tannins, ballast and vegetative extractive materials but insuflicient to precipitate digitoxin, re-

6 moving the precipitated materials and excess lead acetate, and recovering substantially pure crystalline digitoxin from the treated aqueous alcoholic liquid.

5. In a process for the extraction and isolation of substantially pure crystalline-digitoxinfrom crude sources. the steps comprising extracting digitalis leaves with a mixture comprising a major amount of a lower alcohol, and a' minor digitoxin from the water-immiscible organic solutlon. v h

6. In a process for the extraction andisolation of substantially pure crystallinedigitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising a major amount of ethyl alcohol and a minor amount of water, treating the resulting aqueous alcoholic extract containing dissolved digitoxin with an acetate selected from the group consisting or lead acetate and ferrous acetate, lnaconcentration suflicient to precipitate tannins, bal-' last and vegetative extractive materials but lnsuilicient to precipitate digitoxin, removing the precipitated materials and excess acetate. transferring the digitoxin into a water-immiscible organic solvent which dissolves digitoxin while dis-' solving little if any vegetative extractive material, treating the wat-er-immiscible'oi'ganic solu-' tion with, water to remove any traces otgltalin, and selectively precipitating the digitoxin from the water-immiscible organic solution,

7. In a process for the extraction andisolation of substantially pure crystalline digitoxin from crude sources," the steps comprising extracting digitalis leaves with a mixture comprising a major amount of ethyl alcohol and a minor amount of water, treating the resulting aqueous alcoholic extract containing dissolved digitoxin with lead acetate in a concentration suflicient to precipitate tannins, ballast and vegetative extractive materials but'insumcient to precipitate digitoximremoving the precipitated materials and excess lead acetate, transferring the digitoxin into a waterimmiscible organic solvent which dissolves digitoxin while dissolving little if any vegetative extractive material, treating the water-immiscible organic solution with waterv to remove any traces of gitalin, and selectively precipitating digitoxin from the water-immiscible organic solution with petroleum ether.

8. In a process for the extraction and isolation of substantially pure crystalline digitoxin from crude sources, the stepscomprising extracting digitalis leaves with a mixture comprising a major amount of, a lower 'alcohol and a minor amount of water, in which mixture digitoxinis soluble, treating the resulting liquid extract containing dissolved digitoxin with a tanninand extractive-precipitant in a concentration sumcipitate digitoxin, removing the precipitated materials and excess precipitant, transferring the digitoxin into a water-immiscible organic solvent J which dissolves digitoxinwhile dissolving little prising extracting digitalis leaves with a mixture comprising a major amount or ethyl alcohol and a minor amount of water, treating the resulting aqueous alcoholic extract containing dissolved digitoxin with an acetate selected from the group consisting of lead acetate and ferous acetate, in a concentration suflicient to precipitate tannins, ballast and vegetative extractive materials but insufiicient to precipitate digitoxin, removing the precipitated materials and excess acetate, transferring the digitoxin into a water-immiscible organic solvent which dissolves digitoxin while dissolving little if any vegetative extractive material, treating the water-immiscible organic solvent with water to remove any traces of gitalin, precipitatin the digitoxin from the water-immiscible organic solution with petroleum ether, and recrystallizing the digitoxin at least once from an aqueous alcoholic medium to obtain a susbtantially pure crystalline product.

10. In a process for the extraction and isolation of susbtantiaily pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising a major amount of a lower alcohol and a minor amount of water, in which mixture digitoxin is soluble, treating the resulting liquid extract containing dissolved digitoxin with an acetate selected from the group consisting of lead acetate and ferrous acetate, in a concentration sufiicient to precipitate tannins, ballast and vegetative extractive materials but insuflicient to precipitate digitoxin, removing the precipitated materials and excess acetate, transferring the digitoxin into a water-im-' misible organic solvent which dissolves digitoxin while dissolving little if any vegetative extractive material, treating the water-immiscible organic solution with a mildly alkaline aqueous solution to remove any traces of gitalin, and selectively precipitating digitoxin from the water-immiscible organic solution,

11. The process of claim 10, wherein the mildly 14. In a process for the extraction and isolation of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising about 60% ethyl alcohol and about 40% water, treating the resulting aqueous alcoholic extract containing dissolved digitoxin with lead acetate in a concentration suflicient to precipitate tannins, ballast and vegetative extractive materials but insuflicient to precipitate digitoxin, removing the precipitated materials and excess lead acetate, and recovering substantially pure crystalline digitoxin from the treated aqueous alcoholic liquid.

15. In a process for the extraction and isolation of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising about 60% of a water-soluble alcohol and about 40% water, in which mixture digitoxin is soluble, treating the resulting liquid extract containing dissolved digitoxin with an acetate selected from the group consisting of lead acetate and ferrous acetate, in a concentration sufflcient to precipitate tannins, ballast and vegetative extractive materials but insufilcient to precipitate digitoxin, removing the precipitated materials and excess acetate, transferring the digitoxin into a water-irmniscible organic solvent which dissolves digitoxin while dissolving little if any vegetative extractive material, treating the water-immiscible organic solution with water to remove any traces of gitallin, and selectively precipitating digitoxin from the water-immiscible organic solution.

-16. In a process for the extraction and isolation of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a. mixture comprising about 60% ethyl alcohol and about 40% water, treating the resulting aqueous alcoholic extract containing dissolved. digitoxin with, an acetate selected from the group consisting of lead acetate I digitoxin, removing the precipitated materials alkaline aqueous solution is a dilute aqueous solualcoholic-medium comprises about 40% alcohol and about water.

13. In a process for the extraction and isolation of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising about 60% ethyl alcohol and about 40% water, treating the resulting aqueous alcoholic extract containing dissolved digitoxin with an acetate selected from the group consisting of lead acetate and ferrous acetate, in a concentration sufllcient to precipitate tannins, ballast and vegetative extractive materials but insuflicient to precipitate digitoxin, removing the precipitated materials and excess acetate, and recovering substantially pure crystalline digitoxin from the treated aqueous alcoholic liquid, Y

and excess acetate, transferring the digitoxin dissolves digitoxin while dissolving little if any vegetative extractive material, treating the water-immiscible organic solution with water to remove any traces of gitalin, and selectively precipitating the digitoxin from the water-immiscible organic solution.

1'l.--In a process for the extraction and isolation of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising about 60% ethyl alcohol and about 40% water, treating the-resulting aqueous alcoholic extract containing dissolved digitoxin with lead acetate in a concentration suifilcient to precipitate tannins, ballast and vegetative extractive materials but insuiiicient to precipitate digitoxin, removing the precipitated materials and excess lead acetate, transferring the digitoxin into a water immiscible organic, solvent which dissolves digitoxin while dissolving little if any vegetative extraictive material, treating the water-immiscible organic solution with water to remove any traces of 'gitalin, and selectively precipitating digitoxin from the water-immiscible organic solution with petroleum ether.

, 9 tion of substantially pure crystalline digitoxin from crude sources, the steps comprising extracting digitalis leaves with a mixture comprising about 60% .of a water-soluble alcohol and about 40% water, in which mixture digitoxin is soluble, treating the resulting liquid extract containing dissolved digitoxin with a tanninand 'extracfive-precipitant in a concentration sumcient to precipitate tannins, ballast and vegetative extractive materials but insuilicient to precipitate dialtoxin. removing the precipitated materials an excess precipitant, transferring the digitoxin into a water-immiscible organic solvent anaerowhich dissolves digitoxin while dissolving little it any vegetative extractive material, treating the water-immiscible organic solvent with water toremove any traces of gitalin, selectively precipitating the digitoxin from the water-immiscible organic solution. and recrystallizing the digitoxin at least once from an aqueous alcoholic medium to obtain a substantially pure crystalline product.

'19. In a process for the extraction and isolaganic solvent which dissolves dlgitoxin while diacrystalline product.

" Number Name Date 1,898,193 Mannich Feb. 21, 1933 r 1,923,238 Btraub -4 Aug. 22!, 1933 solving little if any vegetative extractive material. treating the water-immiscible organic solvent with water to remove any traces of gitalin, precipitating the digitoxin from the water-im- ,miscible organic solution with petroleum ether.

and recrystallizing the dlgitoxin at least once i from an aqueous alcoholic medium to obtain a substantially pure crystalline product.

20. In a process for the extraction and isolation of substantially pure-crystalline digitoxin from crude sources. the steps comprising extracting digitalis leaves with aqueous ethyl alcohol, treating the resulting aqueous alcoholic extract containing dissolved digitoxin with lead acetate in a concentration suillcient to precipitate tannins, ballast and vezetative extractive materials but insumcient to precipitate digitoxin, removing {the precipitated materials and excess lead acetate, transferring the digitoxin into a water-immiscible organic solvent comprising chloroform and am! ether, precipitating the digitoxin from the water-immiscible organic solution. with petroleum ether, and recrystallizing the digitoxin at least once from an aqueous alcosubstantially pure HARRY ROSEN.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS holic medium to obtain a